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动力锅炉燃烧反应系统的传递描述 被引量:4

DESCRIPTION IN EXERGY TRANSFER FOR COMBUSTION SYSTEM OF POWER BOILER
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摘要 基于对燃烧系统转换元和输元组成及传递结构的分析,建立燃烧系统通用传递模型。依据系统传递特点、转换和传递元的性质和作用,定义、设计转换强度、燃烧产物实际热与理论热比、容积产热强度三个基本评价准则,有效预热权重、无效预热权重和散热权重三个辅助评价准则。由基本准则和辅助准则组成的评价体系,可对燃烧系统中能量与能质的利用作出全面评价。综合应用传递模型和评价准则,即可对燃烧系统进行完整的传递动态描述。为了获得传递的定量描述,在建立燃烧系统能量平衡和平衡方程的基础上,提出常见稳态燃烧系统传递计算的基本方法,并以计算实例概述了燃烧温度、传递速率和评价准则的计算要点及结果。 Based on the analysis of composition and transferring mechanism for both exergy transfer unit and exergy conversion unit, the general model of exergy transfer was established. According to the analysis of exergy transfer characteristics for the system, the properties and functions of exergy transfer unit, the evaluation criterions are defined and established. The evaluation criterions consist of three primary criterions including exergy transfer intensity, ratio of the combustion production actual thermal exergy with theoretical exergy, and volume thermal exergy intensity. Three secondary evaluation criterions including weighting of effective pre-heat, ineffective pre-heat exergy, and weighting of heat dissipating are also presented. This evaluation system can evaluate the energy quality and quantity utilizing for the system comprehensively. The approach applying exergy transfer model and evaluation criterions, can describe the whole exergy dynamic state in the combustion system. Moreover, the system exergy transfer calculation method of steady state combustion is developed based on the energy and exergy balance equations, to describe the quantitative analysis of exergy transfer. The calculation examples are provided to summarize the key points and result in calculating the combustion temperature, exergy transfer velocity and evaluation criterions.
作者 项新耀 纪昆 成庆林
机构地区 大庆石油学院秦皇岛分院 新西兰奥克兰酷
出处 《机械工程学报》 EI CAS CSCD 北大核心 2007年第12期50-54,共5页 Journal of Mechanical Engineering
基金 国家重点基础研究发展计划资助项目(973计划 G2000026307)
关键词 动力锅炉 燃烧系统 [火用]传递 评价准则 Power boilerCombustion systemExergy transferEvaluation criterions
分类号 TK123 [动力工程及工程热物理—工程热物理]
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参考文献15

二级参考文献26

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共引文献64

同被引文献94

引证文献4

二级引证文献18

机械工程学报
2007年 第12期

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